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Synchronous loop Power Generators
Synchronous Loop Power Generators create an infinite loop of controllable, sustainable, transferable energy on the same frequency as the original transmitted frequency (electricity). We can even amplify the original frequency until performance requirements are met. Take It Away Tom! will be publishing our Synchronous Loop Power Generator design, spec’s, and findings for open use sometime in 2025.
The application of Synchronous Loop Power Generators is endless because the generator’s performance is scalable for production of electricity. Currently, we have scaled designs for electric cars and trucks, residential and commercial buildings, and emergency generators. We are currently perfecting a line of construction site generators and lighting. Synchronous Loop Generators create zero emissions and do not require a supplemental energy source.
Synchronous Loop Power Generators were inspired and a result of Tesla’s work in induction and coil technology.
Nikola Tesla
Tesla’s great intention was to provide free energy to everyone. Documentarians discovered Tesla’s work was hindered by corporate espionage and marketing campaigns to defame and steal his work.
Tesla response to the leaders of these corporations was… “I don’t mind that they stole my work, I’m upset they could not have a thought of their own.”
It is claimed Tesla was too advanced for his time. While we recognize and develop his work today, his overall intention has remained ignored until now.
Take It Away Tom! in recognition of a great inventor, will provide the conclusion of our work, based from Tesla’s life work, as open source.
Synchronous Motors
The simple explanation that people understand about electric motors is, that electric motors use electricity to generate motion. Understanding the conversions of input and output to an applied application of synchronous motors is important in understanding how our generators work, function, and can be incorporated for use.
There are many different types of electric motors defined as asynchronous (induction) and synchronous. One of the biggest differences is some motors are powered on DC current while others use AC current. In some cases engineers incorporate the combination of both, with a specific method of energy transfer unique to each motor. There are many types of DC and AC motors as a result, all with their own advantages.
We use synchronous reluctance motors which convert electromagnetism into precise, rational input and output energies. This addresses constraints induction motors face with “slip” phenomena, and they are cheaper and as effective as synchronous motors.
Many people have posted videos on YouTube showing a battery powered loop of alternating currents. While in theory this is the principle we use, there is a lot more that goes into understand Synchronous Motors and power generation like rpm, torque, input, output, frequency, gear ratio, energy displacement, heat, capacity, energy burn off, the originating conductor, scaling, transformer’s, resister’s, and so much more.
We agree with the overall statements from the gentleman in this video, but
we stand with him regarding his conclusion based on scale alone. Yes, on the scale he references, a sustainable energy loop is not possible.
Transmissions, gear boxes, and clutches are required as well as a lot of mathematics and a CPU. Introducing a gear box we can transfer motion energy to multiple locations. We start with a high torque/low rpm/low frequency synchronous reluctance motor. This motor is connected to a gear box. There are multiple models based on the demand of capacity. Our gear box models range from two output shafts to six output shafts. We even have a gear box model that can couple gear boxes together for higher performing induction motors. We have not concluded tests on how many gears boxes we can connect total.
Understanding torque and rpm loss, we introduce transmissions to step up or down rpm’s being input into the synchronous reluctance generators. Generally we like to see 1,200 – 3,400 rpms as this is peak performance for most of the motors and generators we use. This is where all the math comes in.
As a fail safe our transmissions are all attached to clutch assembly, so we can put the transmissions in neutral independently in case a shutdown is necessary.
Directly connecting one synchronous motor to another just doesn’t work. With an 80% performance rating by the end you are at a -40% output rate which is not sustainable. When you apply 3 generators to one synchronous motor you retain a +120% output rate after powering the motor. When you introduce five generators to one motor you receive +280%. This is the standard for our formula +280% energy production.
This only scratches the surface and Take It Away Tom! is looking forward to releasing our findings to the public. While we can not say that we have perfected this science and technology, we can let you know we have tested our principle and it functions. With our breakthrough we are working with an engineering firm to increase performance of the synchronous motors for our generators.
The goal is to create standard sizes for energy production and capacity. When we have selected our preferred vendors, we will release our findings for public use. You will be able to purchase a Synchronous Loop Power Generator from us, our competitors (who got the technology from us), or you can check out our published schematics and build your own.
We look forward to releasing publications of our findings.
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